DE19743949C1 - Housing with latching mechanism on installation base surface - Google Patents

Abstract

The housing (1) has an installation base surface with at least a first latching element (4.1). At least a second latching element (4.2) is attached to a carrier body to which the housing is able to be attached by the latching mechanism by engaging the first and second latching elements to form a mechanical connection. A part (2) on the installation surface (8) facing the carrier body (7) or on the carrier body facing the installation surface is moved between protruding (2.1) and retracted (2.2) positions by the latching process. A measurement arrangement (10) determines whether the part is in the protruding or retracted position.

Description

The invention relates to an arrangement for testing the determination appropriate fastening of a housing to a carrier body, and a method of assembly of a housing on one Carrier body.

Housings with latching means belong to the state of the art and are, for example. known from US 5,220,712 A or DE 34 26 949 A1. Snapping, snapping or pawning two assigned latching means simplifies the Assembly compared to conventional fastening forms, e.g. screws. A snap-in process can be carried out much faster and is self-adjusting.

However, since the automotive industry has particularly high safety requirements must be put into place between the housing and Carrier body can be checked.

An arrangement in which the position of a resettable part can be detected by means of a measuring arrangement, is in the form of or stop switches for moving parts are generally known and e.g. from the utility model DE 88 02 361 U1 for a brake light control to be found in a brake pedal of a motor vehicle.

The object of the invention is therefore an arrangement for testing the Intended attachment of a housing to a carrier body and to specify a method for assembly, by which in simple In this way it can be checked whether the housing is mounted on the carrier body.

The task is for the arrangement to check the determination appropriate attachment by the features of the arrangement according to the patent Claim 1 and for the assembly process by Features of the method according to claim 4 solved.  

Between the mounting base of the housing and the support body is a resettable part protruding, which when mounting the Housing with the mounting base on the carrier body by means of the A indexing device is reset. There is also a measuring arrangement seen with which it is determined whether the resettable part in the reset or in the protruding position. Before Partial development of the invention is described in subclaims 2 and 3.

According to claim 2, this is resettable stored part with an electrical switch  element connected to the protruding position of the rear adjustable part has a first electrical switching state while it at the reset position of the resettable part has second electrical switching state and the respective switching state is detected by the measuring arrangement.

According to patent claim 3 is a sensier on the resettable part object attached and in the housing as a measuring arrangement the distance of the Sensing object and thus the position of the resettable part detecting sensor device provided. Such a sensor device can be a Hall sensor, for example. Sensor devices work by touch loose and generally wear-free.

According to the assembly method according to claim 4, that Housing with the first locking means on the mounting base with the second means connected to the carrier body by snapping, the resettable part is pressed into the reset position. A measuring arrangement is provided with which it is determined whether the resettable part in the protruding or in the back position and the resulting engagement is checked.

The measuring arrangement is preferably calibrated by at least a first measured value of the position of the measuring arrangement is detected, the measured value the protruding Position is assigned and the measured value is stored as a reference value, with which a further measured value after it has snapped in is compared. It is also conceivable that a measured value for the back position after installation is stored as a comparison value by the installed state is simulated, for example by another sensor object or the adjustment of the resettable part. Also the It is conceivable to use the combination of both variants.

The invention is described below using an exemplary embodiment explained in more detail with reference to the figures.

Brief description of the figures:

Fig. 1 the housing and the carrier body with latching means and a protruding part resettable mounted to the mounting base surface of the housing prior to engagement,

Fig. 2 housing during latching,

Fig. 3 housing after snapping into the support body, resettable part in the reset position.

Fig. 1 shows the housing 1 , which has 8 snap-in means 4.1 , 5.1 and 6.1 , shown as snap-in hooks, on the mounting base. These snap-in means 4.1 , 5.1 , 6.1 are each assigned corresponding snap-in means on the carrier body 7 , shown here as snap-in openings, 4.2 , 5.2 and 6.2 . Obviously, the snap-in openings 4.2 , 5.2 , 6.2 can also be arranged on the housing 1 and the snap-in hooks 4.1 , 5.1 , 6.1 on the support body 7 , or a combination of both can be selected, provided that more than one pair of snap-in means is used.

In this exemplary embodiment, the resiliently mounted part 2 is shown in the protruding position ( 2.1 ) as an angled arrangement which is spread apart from the mounting surface 8 and which is elastically connected to that on the printed circuit board 9 . Basically, the resiliently mounted part 2 can also be mounted on the carrier body 7 . Fig. 1 shows the resiliently mounted part 2 in the protruding position ( 2.1 ) before assembly. The sensing object 3 is located on the protruding part of the resiliently mounted part 2 and is at a typical distance from the measuring arrangement 10 , which is integrated in the printed circuit board 9 , for the protruding position ( 2.1 ). The measuring arrangement 10 preferably detects a first measured value of the position before assembly and assigns the protruding position ( 2.1 ) to this measured value. This is stored as a reference value and compared with a second measured value after it has snapped in, as a result of which the snapping in can be checked.

FIG. 2 shows how the housing 1 is initially snapped into place at one point with the snap-in means 4.1 , 4.2 in the carrier body 7 and is subsequently adjusted using the snap-in means 5.1 and 5.2 . The resiliently mounted part 2 is still in the position 2.1 protruding from the mounting base 8 . Subsequently, the housing 1 is pressed in the direction of the carrier body 7 , the snap-in means 6.1 and 6.2 for snap-in connection 6 (see FIG. 3). As can also be seen in FIG. 3, the resiliently mounted part 2 thereby moves into the reset position 2.2 . The measuring arrangement 10 is now at a significantly smaller distance from the sensing object 3 located on the resettable part 2 . The measuring arrangement 10 again determines the distance between the measuring arrangement 10 and the sensing object 3 in a second measured value and compares this second measured value with the first measured value stored as a reference value and gives a corresponding output signal to the assembly monitoring. This can be supplemented by determining a reference value for the installed state.

For a mirror-symmetrical arrangement of the resiliently mounted part 2 on the support body 7 , the operation is analogous. When using micromechanical switches, the measuring arrangement 10 is simplified to a pure conductivity test.

Claims (4)

1. Arrangement for checking the intended attachment of a housing ( 1 ) to a carrier body ( 7 ), the housing ( 1 ) having a mounting base ( 8 ) on which there is at least a first latching means ( 4.1 , 5.1 , 6.1 ),
which is assigned a second latching means ( 4.2 , 5.2 , 6.2 ), which is located on the carrier body ( 7 ),
wherein the first and second latching means ( 4.1 , 5.1 , 6.1 , 4.2 , 5.2 , 6.2 ) bring about a mechanical connection ( 4 , 5 , 6 ),
in which

• a) on the mounting base ( 8 ) towards the support body ( 7 ) or
• b) on the carrier body ( 7 ) towards the mounting surface ( 8 ),

a part ( 2 ) which is resettably supported when it snaps between a protruding ( 2.1 ) and a reset position ( 2.2 ) and
there is a measuring arrangement ( 10 ) with which it can be determined whether the resiliently mounted part ( 2 ) is in the protruding ( 2.1 ) or in the reset position ( 2.2 ). 2. Arrangement according to claim 1, characterized in that the resettable part ( 2 ) is connected to an electrical switching element which, in the projecting position ( 2.1 ) of the resettable part ( 2 ) has a first electrical switching state while it is at the reset position ( 2.2 ) of the resiliently mounted part ( 2 ) has a second electrical switching state and the respective switching state is detected by the measuring arrangement ( 10 ). 3. Arrangement according to claim 1, characterized in that on the rear adjustably mounted part ( 2 ) a sensing object ( 3 ) attached and in the housing ( 1 ) as a measuring arrangement ( 10 ) a the distance of the sensing object ( 3 ) and thus the position ( 2.1 or 2.1 ) of the resiliently mounted part ( 2 ) detecting sensor device is provided. 4. A method for mounting a housing ( 1 ) on a carrier body ( 7 ), the housing ( 1 ) having a mounting base ( 8 ) on which there is at least one first latching means ( 4.1 , 5.1 , 6.1 ), the second latching means ( 4.2 , 5.2 , 6.2 ) is assigned to the carrier body ( 7 ) and which, by latching, bring about a mechanical connection in that a resiliently mounted part ( 2 ) protruding before latching

• a) on the mounting base ( 8 ) towards the support body ( 7 ) or
• b) on the carrier body ( 7 ) towards the mounting surface ( 8 )

and a measuring arrangement ( 10 ) is provided with which it is determined whether the part ( 2 ) which can be reset is in the protruding ( 2.1 ) or in the reset ( 2.2 ) position,
the measuring arrangement ( 10 ) for calibration records and stores at least one first measured value as a reference value and the projecting position ( 2.1 ) is assigned to this reference value,
the housing ( 1 ) is connected with the first latching means ( 4.1 , 5.1 , 6.1 ) on the mounting base ( 8 ) with the second latching means ( 4.2 , 5.2 , 6.2 ) on the carrier body ( 7 ) by latching, the part ( 2 ) is pressed into the reset position ( 2.2 ) and
the engagement is checked by means of the measuring arrangement ( 10 ) by comparing a further measured value with the reference value.